电荷的一个重要特性是它的“量子性”,即任何带电体的电荷只能是某一基本单位的整数倍。这个基本单位就是一个电子所带的电荷,叫做电子电荷。 国际单位制中安培新的定义由电子电荷来定义。
elementary charge 基本电荷 ; 基本电荷 ; 元电荷 ; 电子电荷 charge pump 电荷泵 ; 充电泵 ; 进料泵 ; 供给泵 ..
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... charge neutralization 电荷中和 charge of the electron 电子电荷 charge pulse amplifier 电荷脉冲放年夜器 ...
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单电子电荷 elemental charge
有效价电子电荷 Efficient charge of valent electron
电子倍增电荷耦合器件 EMCCD ; electron multiplying charge-coupled device
电子的比电荷 specific electronic charge
电子的电荷 charge of an electron
电子轰击电荷耦合器件 EBCCD
电子倍增电荷耦合装置 electron-multiplying charge-coupled device ; EMCCD
荷电粒子与非荷电粒子 charged and uncharged particles
一开始将电子电荷平方,再除以光速和普朗克常数,然后将总数乘以2个圆周率。
You start with the square of an electron's charge, divide it by the speed of light and Planck's constant, then multiply the whole lot by two PI.
这些机制是离子电荷的内部位移、电子电荷的内部位移和由于应变引起的离子性的变化。
These mechanisms are the internal displacement of the ionic charge, the internal displacement of the electronic charge and the charge in ionicity due to strain.
传统的电子元件,比如二极管和三极管,它们的信息载体都是电子电荷,电子的自旋没有被利用。
The information carrier of traditional electronic components such as diode and audion, is electronic charge, but the electronic spin is not considered.
So why don't you go ahead and identify the correct electron configuration for carbon, 6 and I'll tell you that z is equal to 6 here.
所以你们为什么不开始,而且识别碳的正确的在你们做作业方面,电子构型,我会告诉你有效电荷量是。
For the carbon, we start with 4 valence electrons, we have 0 lone pair electrons minus 4, and we end up with a formal charge of 0.
对于碳,我们从四个价电子开始,我们有零个孤对电子,再减去四,最终我们有零个形式电荷。
And there is this separation which is a balance of attractive forces because the chloride is net negative and the sodium is net positive, but both of them, regardless of net charge, have electrons.
这里有一个平衡,引力的平衡,由于氯离子带有负的净电荷,钠离子带有正的净电荷,但是它们两个,没有考虑净电荷,电子。
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